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Local Ca2+ signaling in sympathetic ganglion neurons

交感神经节神经元中的局部 Ca2 信号传导

基本信息

批准号：
6605871
负责人：
MARTIN F SCHNEIDER
金额：
$ 31.41万
依托单位：
UNIVERSITY OF MARYLAND BALTIMORE
依托单位国家：
美国
项目类别：
财政年份：
2002
资助国家：
美国
起止时间：
2002-07-03 至 2006-05-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/6605871
关键词：
Rana action potentials calcium flux confocal scanning microscopy electrophysiology endoplasmic reticulum histochemistry /cytochemistry imaging /visualization /scanning intracellular mitochondria neurons perfusion sympathetic ganglion tissue /cell culture

项目摘要

DESCRIPTION (provided by applicant): The overall goal of this project is to gain further insight into local Ca2+ signaling in neurons. Local spatio-temporal differences in cytosolic (Ca2+), together with localized intracellular Ca2+ receptor molecules, provide one mechanism for selective modulation of diverse cellular functions by the single messenger Ca2+ in the same cell. Our recent confocal imaging of ryanodine receptor (RyR) Ca2+ release channels, endoplasmic reticulum (ER) Ca2+ pumps and mitochondria in cultured dissociated frog sympathetic ganglion neurons has indicated six specialized cellular sub-domains in these neurons: a peripheral ER-rich shell, an underlying mitochondria-rich shell, a central cytoplasm, a peripheral and a central perinuclear ER and the nucleus at the nuclear pole. Our recent video rate confocal fluorescent Ca2+ indicator (fluo-4) imaging in these neurons has revealed discrete sub-plasma membrane sites of preferential initiation of Ca2+ release activated either by caffeine or by a single action potential. The peripheral Ca2+ transients presumably occur via Ca2+ release from peripheral ER since they are eliminated by ER Ca2+ depletion. We now propose to address the following aims. (1) To characterize Ca2+ release, Ca2+ uptake and Ca2+ propagation in and between each of the identified sub-domains in these neurons, and to simulate our observations with a 6 interconnected sub-domain model of the neurons. (2) To study the basis for local peripheral sites of preferential Ca2+ release during single action potentials, and to determine whether these preferential release sites may also generate discrete local Ca2+ release events (Ca2+) "sparks"). (3) To determine the effects of transmitter-induced activation and other physiological perturbations in neurons in culture as well as in ganglia. We will combine high speed "band scan" (4 or 8 ms per band) and line scan (63 us per line) confocal fluorescent Ca2+ imaging of neurons in culture and in partially dissected fresh ganglia, electrophysiology, rapid extracellular perfusion, release of caged compounds, cytosolic injection of cDNA and/or proteins and histochemical study of live and fixed neurons. Our results will provide new insights regarding local Ca2+ signaling mechanisms that could be compromised in neuronal disease.

描述（由申请人提供）：本项目的总体目标是进一步了解神经元中的局部Ca 2+信号。当地细胞溶质（Ca 2+）的时空差异，以及局部细胞内Ca 2+受体分子，提供了一种选择性地细胞内单个信使Ca 2+对多种细胞功能的调节相同单元我们最近对Ryanodine受体（RyR）Ca 2+释放的共聚焦成像细胞培养液中的钙通道、内质网（ER）钙泵和线粒体分离的青蛙交感神经节神经元表明，这些神经元中的细胞亚结构域：外周ER丰富的外壳，下面的富甲壳，中央细胞质，周边和中央核周ER和核极处的核。我们最近的视频在这些神经元中的共聚焦荧光Ca 2+指示剂（fluo-4）成像，揭示了不连续的亚质膜位点的优先启动钙由咖啡因或单个动作电位激活的释放。的外周Ca 2+瞬变可能通过外周ER的Ca 2+释放而发生因为它们通过ER Ca 2+耗尽而被消除。我们现建议处理的目标。(1)表征Ca 2+释放、Ca 2+摄取和Ca 2 + 在这些神经元中的每个所识别的子域中和子域之间的传播，并模拟我们的观察与6互联子域模型，神经元(2)以研究为基础，对当地周边站点进行优惠在单个动作电位过程中的Ca 2+释放，并确定这些优先释放位点也可产生离散的局部Ca 2+释放事件 (Ca2+）“火花”）。(3)为了确定发射机引起的激活和其他生理扰动的神经元培养以及就像神经节一样我们将结合联合收割机高速“波段扫描”（每波段4或8毫秒），线扫描（63 us/线）共聚焦荧光Ca 2+成像的神经元，培养和部分解剖的新鲜神经节，电生理学，快速细胞外灌注，笼状化合物的释放，活的和固定的神经元的cDNA和/或蛋白质和组织化学研究。我们结果将提供有关局部Ca 2+信号机制的新见解在神经元疾病中可能受到损害。